Active current control in wind power plants during grid faults

Jorge Martinez; Phillip C. Kjær; Pedro Rodriguez; Remus Teodorescu

doi:10.1002/we.394

Active current control in wind power plants during grid faults

Jorge Martinez, Phillip C. Kjær, Pedro Rodriguez, Remus Teodorescu

AAU Energy

Research output: Contribution to journal › Journal article › Research › peer-review

13 Citations (Scopus)

Abstract

Modern wind power plants are required and designed to ride through faults in electrical networks, subject to fault clearing. Wind turbine fault current contribution is required from most countries with a high amount of wind power penetration. In order to comply with such grid code requirements, wind turbines usually have solutions that enable the turbines to control the generation of reactive power during faults. This paper addresses the importance of using an optimal injection of active current during faults in order to fulfil these grid codes. This is of relevant importance for severe faults, causing low voltages at the point of common coupling. As a consequence, a new wind turbine current controller for operation during faults is proposed. It is shown that to achieve the maximum transfer of reactive current at the point of common coupling, a strategy for optimal setting of the active current is needed.

Original language	English
Journal	Wind Energy
Volume	13
Issue number	8
Pages (from-to)	737-749
Number of pages	13
ISSN	1095-4244
DOIs	https://doi.org/10.1002/we.394
Publication status	Published - 2010

Keywords

Wind turbine generator
Faults
Doubly fed induction generator
Short-circuit currents
Low-voltage ride through
Grid code

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title = "Active current control in wind power plants during grid faults",

abstract = "Modern wind power plants are required and designed to ride through faults in electrical networks, subject to fault clearing. Wind turbine fault current contribution is required from most countries with a high amount of wind power penetration. In order to comply with such grid code requirements, wind turbines usually have solutions that enable the turbines to control the generation of reactive power during faults. This paper addresses the importance of using an optimal injection of active current during faults in order to fulfil these grid codes. This is of relevant importance for severe faults, causing low voltages at the point of common coupling. As a consequence, a new wind turbine current controller for operation during faults is proposed. It is shown that to achieve the maximum transfer of reactive current at the point of common coupling, a strategy for optimal setting of the active current is needed.",

keywords = "Wind turbine generator, Faults, Doubly fed induction generator, Short-circuit currents, Low-voltage ride through, Grid code",

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year = "2010",

doi = "10.1002/we.394",

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journal = "Wind Energy",

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TY - JOUR

T1 - Active current control in wind power plants during grid faults

AU - Martinez, Jorge

AU - Kjær, Phillip C.

AU - Rodriguez, Pedro

AU - Teodorescu, Remus

PY - 2010

Y1 - 2010

N2 - Modern wind power plants are required and designed to ride through faults in electrical networks, subject to fault clearing. Wind turbine fault current contribution is required from most countries with a high amount of wind power penetration. In order to comply with such grid code requirements, wind turbines usually have solutions that enable the turbines to control the generation of reactive power during faults. This paper addresses the importance of using an optimal injection of active current during faults in order to fulfil these grid codes. This is of relevant importance for severe faults, causing low voltages at the point of common coupling. As a consequence, a new wind turbine current controller for operation during faults is proposed. It is shown that to achieve the maximum transfer of reactive current at the point of common coupling, a strategy for optimal setting of the active current is needed.

AB - Modern wind power plants are required and designed to ride through faults in electrical networks, subject to fault clearing. Wind turbine fault current contribution is required from most countries with a high amount of wind power penetration. In order to comply with such grid code requirements, wind turbines usually have solutions that enable the turbines to control the generation of reactive power during faults. This paper addresses the importance of using an optimal injection of active current during faults in order to fulfil these grid codes. This is of relevant importance for severe faults, causing low voltages at the point of common coupling. As a consequence, a new wind turbine current controller for operation during faults is proposed. It is shown that to achieve the maximum transfer of reactive current at the point of common coupling, a strategy for optimal setting of the active current is needed.

KW - Wind turbine generator

KW - Faults

KW - Doubly fed induction generator

KW - Short-circuit currents

KW - Low-voltage ride through

KW - Grid code

U2 - 10.1002/we.394

DO - 10.1002/we.394

M3 - Journal article

SN - 1095-4244

VL - 13

SP - 737

EP - 749

JO - Wind Energy

JF - Wind Energy

IS - 8

ER -

Active current control in wind power plants during grid faults

Abstract

Keywords

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